enable or disable the generation of recoils. If recoils are disabled, the energy they would have received is just deposited. param flag if true, create recoil ions in cases in which the energy is above the recoilCutoff. If false, just deposit the energy. 더 자세히 ...

enable or disable whether this process will skip collisions which are close enough they need hadronic phsyics. Default is true (skip close collisions). Disabling this results in excess nuclear stopping power. 더 자세히 ...

the name of a screening function to use. The default functions are "zbl" (recommended for soft scattering), "lj" (recommended for backscattering) and "mol" (Moliere potential)

GenerateRecoils

if frue, ions struck by primary are converted into new moving particles. If false, energy is deposited, but no new moving ions are created.

RecoilCutoff

energy below which no new moving particles will be created, even if a GenerateRecoils is true. Also, a moving primary particle will be stopped if its energy falls below this limit.

PhysicsCutoff

the energy transfer to which screening tables are calucalted. There is no really compelling reason to change it from the 10.0 eV default. However, see the paper on running this in thin targets for further discussion, and its interaction with SetMFPScaling()

enable or disable whether this process will skip collisions which are close enough they need hadronic phsyics. Default is true (skip close collisions). Disabling this results in excess nuclear stopping power.

enable or disable the generation of recoils. If recoils are disabled, the energy they would have received is just deposited. param flag if true, create recoil ions in cases in which the energy is above the recoilCutoff. If false, just deposit the energy.

This funciton is used to coordinate this process with G4MSC. Typically, G4MSC should not be allowed to operate in a range which overlaps that of this process. The criterion which is most reasonable is that the transition should be somewhere in the modestly relativistic regime (500 MeV/u for example). param energy energy per nucleon for the cutoff

the factor by which the default MFP will be scaled. Set to less than 1 for very thin films, typically, to sample multiple scattering, or to greater than 1 for quick simulations with a very long flight path